MCUXpresso_MIMXRT1052xxxxB/boards/evkbimxrt1050/littlefs_examples/littlefs_shell/evkbimxrt1050_sdram_init.jl...

/*
 * Copyright 2017-2020 NXP
 * All rights reserved.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

void Load_Dcdc_Trim()
{
  unsigned int ocotp_base;
  unsigned int dcdc_base;
  unsigned int ocotp_fuse_bank0_base;
  unsigned int reg;
  unsigned int index;
  unsigned int trim_value;
  unsigned int dcdc_trim_loaded;

  ocotp_base = 0x401F4000;
  ocotp_fuse_bank0_base = 0x401F4000 + 0x400;
  dcdc_base = 0x40080000;

  dcdc_trim_loaded = 0;

  reg = MEM_ReadU32(ocotp_fuse_bank0_base + 0x90);
  if (reg & (1<<10))
  {
      trim_value = (reg & (0x1F << 11)) >> 11;
      reg = (MEM_ReadU32(dcdc_base + 0x4) & ~(0x1F << 24)) | (trim_value << 24);
      MEM_WriteU32(dcdc_base + 0x4, reg);
      dcdc_trim_loaded = 1;
  }

  // DCDC_VOLT_CHANG_EN
  reg = MEM_ReadU32(ocotp_fuse_bank0_base + 0x80);
  if (reg & (1<<30))
  {
    index = (reg & (3 << 28)) >> 28;
    if (index < 4)
    {
      reg = (MEM_ReadU32(dcdc_base + 0xC) & ~(0x1F)) | (0xF + index);
      MEM_WriteU32(dcdc_base + 0xC, reg);
      dcdc_trim_loaded = 1;
    }
  }

  if (dcdc_trim_loaded)
  {
      // delay 1ms for dcdc to get stable
      SYS_Sleep(1);
      Report("DCDC trim value loaded.");
  }
}

void Clock_Init()
{
  unsigned int reg;
  // Enable all clocks
  MEM_WriteU32(0x400FC068,0xffffffff);
  MEM_WriteU32(0x400FC06C,0xffffffff);
  MEM_WriteU32(0x400FC070,0xffffffff);
  MEM_WriteU32(0x400FC074,0xffffffff);
  MEM_WriteU32(0x400FC078,0xffffffff);
  MEM_WriteU32(0x400FC07C,0xffffffff);
  MEM_WriteU32(0x400FC080,0xffffffff);

  // PERCLK_PODF: 1 divide by 2
  MEM_WriteU32(0x400FC01C, 0x04900001);
  // Enable SYS PLL but keep it bypassed.
  MEM_WriteU32(0x400D8030, 0x00012001);
  do
  {
    reg = MEM_ReadU32(0x400D8030);
  }while((reg & 0x80000000) == 0);
  // Disable bypass of SYS PLL
  MEM_WriteU32(0x400D8030, 0x00002001);

  // PFD2_FRAC: 29, PLL2 PFD2=528*18/PFD2_FRAC=327
  // Ungate SYS PLL PFD2
  reg = MEM_ReadU32(0x400D8100);
  reg &= ~0xBF0000;
  reg |= 0x1D0000;
  MEM_WriteU32(0x400D8100, reg);

  // SEMC_PODF: 001, AHB_PODF: 011, IPG_PODF: 01
  // SEMC_ALT_CLK_SEL: 0 PLL2 (SYS PLL) PFD2
  // SEMC_CLK_SEL: 1 SEMC_ALT_CLK
  MEM_WriteU32(0x400FC014, 0x00010D40);

  Report("Clock Init Done");
}

void SDRAM_WaitIpCmdDone(void)
{
  unsigned int reg;
  do
  {
      reg = MEM_ReadU32(0x402F003C);
  }while((reg & 0x3) == 0);

  MEM_WriteU32(0x402F003C,0x00000003); // clear IPCMDERR and IPCMDDONE bits
}

void SDRAM_Init() {
  // Config IOMUX for SDRAM
  MEM_WriteU32(0x401F8014,0x00000000); // EMC_00
  MEM_WriteU32(0x401F8018,0x00000000); // EMC_01
  MEM_WriteU32(0x401F801C,0x00000000); // EMC_02
  MEM_WriteU32(0x401F8020,0x00000000); // EMC_03
  MEM_WriteU32(0x401F8024,0x00000000); // EMC_04
  MEM_WriteU32(0x401F8028,0x00000000); // EMC_05
  MEM_WriteU32(0x401F802C,0x00000000); // EMC_06
  MEM_WriteU32(0x401F8030,0x00000000); // EMC_07
  MEM_WriteU32(0x401F8034,0x00000000); // EMC_08
  MEM_WriteU32(0x401F8038,0x00000000); // EMC_09
  MEM_WriteU32(0x401F803C,0x00000000); // EMC_10
  MEM_WriteU32(0x401F8040,0x00000000); // EMC_11
  MEM_WriteU32(0x401F8044,0x00000000); // EMC_12
  MEM_WriteU32(0x401F8048,0x00000000); // EMC_13
  MEM_WriteU32(0x401F804C,0x00000000); // EMC_14
  MEM_WriteU32(0x401F8050,0x00000000); // EMC_15
  MEM_WriteU32(0x401F8054,0x00000000); // EMC_16
  MEM_WriteU32(0x401F8058,0x00000000); // EMC_17
  MEM_WriteU32(0x401F805C,0x00000000); // EMC_18
  MEM_WriteU32(0x401F8060,0x00000000); // EMC_19
  MEM_WriteU32(0x401F8064,0x00000000); // EMC_20
  MEM_WriteU32(0x401F8068,0x00000000); // EMC_21
  MEM_WriteU32(0x401F806C,0x00000000); // EMC_22
  MEM_WriteU32(0x401F8070,0x00000000); // EMC_23
  MEM_WriteU32(0x401F8074,0x00000000); // EMC_24
  MEM_WriteU32(0x401F8078,0x00000000); // EMC_25
  MEM_WriteU32(0x401F807C,0x00000000); // EMC_26
  MEM_WriteU32(0x401F8080,0x00000000); // EMC_27
  MEM_WriteU32(0x401F8084,0x00000000); // EMC_28
  MEM_WriteU32(0x401F8088,0x00000000); // EMC_29
  MEM_WriteU32(0x401F808C,0x00000000); // EMC_30
  MEM_WriteU32(0x401F8090,0x00000000); // EMC_31
  MEM_WriteU32(0x401F8094,0x00000000); // EMC_32
  MEM_WriteU32(0x401F8098,0x00000000); // EMC_33
  MEM_WriteU32(0x401F809C,0x00000000); // EMC_34
  MEM_WriteU32(0x401F80A0,0x00000000); // EMC_35
  MEM_WriteU32(0x401F80A4,0x00000000); // EMC_36
  MEM_WriteU32(0x401F80A8,0x00000000); // EMC_37
  MEM_WriteU32(0x401F80AC,0x00000000); // EMC_38
  MEM_WriteU32(0x401F80B0,0x00000010); // EMC_39, DQS PIN, enable SION

  // PAD ctrl
  // drive strength = 0x7 to increase drive strength
  // otherwise the data7 bit may fail.
  MEM_WriteU32(0x401F8204,0x000110F9); // EMC_00
  MEM_WriteU32(0x401F8208,0x000110F9); // EMC_01
  MEM_WriteU32(0x401F820C,0x000110F9); // EMC_02
  MEM_WriteU32(0x401F8210,0x000110F9); // EMC_03
  MEM_WriteU32(0x401F8214,0x000110F9); // EMC_04
  MEM_WriteU32(0x401F8218,0x000110F9); // EMC_05
  MEM_WriteU32(0x401F821C,0x000110F9); // EMC_06
  MEM_WriteU32(0x401F8220,0x000110F9); // EMC_07
  MEM_WriteU32(0x401F8224,0x000110F9); // EMC_08
  MEM_WriteU32(0x401F8228,0x000110F9); // EMC_09
  MEM_WriteU32(0x401F822C,0x000110F9); // EMC_10
  MEM_WriteU32(0x401F8230,0x000110F9); // EMC_11
  MEM_WriteU32(0x401F8234,0x000110F9); // EMC_12
  MEM_WriteU32(0x401F8238,0x000110F9); // EMC_13
  MEM_WriteU32(0x401F823C,0x000110F9); // EMC_14
  MEM_WriteU32(0x401F8240,0x000110F9); // EMC_15
  MEM_WriteU32(0x401F8244,0x000110F9); // EMC_16
  MEM_WriteU32(0x401F8248,0x000110F9); // EMC_17
  MEM_WriteU32(0x401F824C,0x000110F9); // EMC_18
  MEM_WriteU32(0x401F8250,0x000110F9); // EMC_19
  MEM_WriteU32(0x401F8254,0x000110F9); // EMC_20
  MEM_WriteU32(0x401F8258,0x000110F9); // EMC_21
  MEM_WriteU32(0x401F825C,0x000110F9); // EMC_22
  MEM_WriteU32(0x401F8260,0x000110F9); // EMC_23
  MEM_WriteU32(0x401F8264,0x000110F9); // EMC_24
  MEM_WriteU32(0x401F8268,0x000110F9); // EMC_25
  MEM_WriteU32(0x401F826C,0x000110F9); // EMC_26
  MEM_WriteU32(0x401F8270,0x000110F9); // EMC_27
  MEM_WriteU32(0x401F8274,0x000110F9); // EMC_28
  MEM_WriteU32(0x401F8278,0x000110F9); // EMC_29
  MEM_WriteU32(0x401F827C,0x000110F9); // EMC_30
  MEM_WriteU32(0x401F8280,0x000110F9); // EMC_31
  MEM_WriteU32(0x401F8284,0x000110F9); // EMC_32
  MEM_WriteU32(0x401F8288,0x000110F9); // EMC_33
  MEM_WriteU32(0x401F828C,0x000110F9); // EMC_34
  MEM_WriteU32(0x401F8290,0x000110F9); // EMC_35
  MEM_WriteU32(0x401F8294,0x000110F9); // EMC_36
  MEM_WriteU32(0x401F8298,0x000110F9); // EMC_37
  MEM_WriteU32(0x401F829C,0x000110F9); // EMC_38
  MEM_WriteU32(0x401F82A0,0x000110F9); // EMC_39

  // Config SDR Controller Registers/
  MEM_WriteU32(0x402F0000,0x10000004); // MCR
  MEM_WriteU32(0x402F0008,0x00000081); // BMCR0
  MEM_WriteU32(0x402F000C,0x00000081); // BMCR1
  MEM_WriteU32(0x402F0010,0x8000001B); // BR0, 32MB

  MEM_WriteU32(0x402F0040,0x00000F07); // SDRAMCR0
  MEM_WriteU32(0x402F0044,0x00652922); // SDRAMCR1
  MEM_WriteU32(0x402F0048,0x00010920); // SDRAMCR2
  MEM_WriteU32(0x402F004C,0x50210A08); // SDRAMCR3

  MEM_WriteU32(0x402F0090,0x80000000); // IPCR0
  MEM_WriteU32(0x402F0094,0x00000002); // IPCR1
  MEM_WriteU32(0x402F0098,0x00000000); // IPCR2

  MEM_WriteU32(0x402F009C,0xA55A000F); // IPCMD, SD_CC_IPREA
  SDRAM_WaitIpCmdDone();
  MEM_WriteU32(0x402F009C,0xA55A000C); // SD_CC_IAF
  SDRAM_WaitIpCmdDone();
  MEM_WriteU32(0x402F009C,0xA55A000C); // SD_CC_IAF
  SDRAM_WaitIpCmdDone();
  MEM_WriteU32(0x402F00A0,0x00000030); // IPTXDAT
  MEM_WriteU32(0x402F009C,0xA55A000A); // SD_CC_IMS
  SDRAM_WaitIpCmdDone();
  MEM_WriteU32(0x402F004C,0x08080A01 ); // enable sdram self refresh again after initialization done.

  Report("SDRAM Init Done");
}

void RestoreFlexRAM()
{
    unsigned int base;
    unsigned int value;

    base = 0x400AC000;

    value = MEM_ReadU32(base + 0x44);
    value &= ~(0xFFFFFFFF);
    value |= 0x55AFFA55;
    MEM_WriteU32(base + 0x44, value);

    value = MEM_ReadU32(base + 0x40);
    value |= (1 << 2);
    MEM_WriteU32(base + 0x40, value);
    Report("FlexRAM configuration is restored");
}

/* ConfigTarget */
void ConfigTargetSettings(void)
{
  Report("Config JTAG Speed to 4000kHz");
  JTAG_Speed = 4000;
}

/* SetupTarget */
void SetupTarget(void) {

  Report("Enabling i.MXRT SDRAM");
  RestoreFlexRAM();
  Load_Dcdc_Trim();
  Clock_Init();
  SDRAM_Init();
}

/* AfterResetTarget */
void AfterResetTarget(void) {

  RestoreFlexRAM();
  Load_Dcdc_Trim();
  Clock_Init();
  SDRAM_Init();
}